Pilot Protection Scheme for DC Lines Based on Ratio of Differential Current to Distributed Capacitive Current

被引：0

作者：

Chu B. ^{[1
]}

Li H. ^{[1
]}

Peng G. ^{[2
]}

Liang Y. ^{[1
]}

Wang G. ^{[1
]}

机构：

[1] School of Electric Power, South China University of Technology, Guangzhou

[2] Electric Power Research Institute, EHV Power Transmission Company of China Southern Power Grid Co., Ltd., Guangzhou

来源：

Dianli Xitong Zidonghua/Automation of Electric Power Systems | 2024年 / 48卷 / 09期

基金：

中国国家自然科学基金;

关键词：

current differential protection; DC transmission; distributed capacitive current; pilot protection;

D O I：

10.7500/AEPS20221221004

中图分类号：

学科分类号：

摘要：

Distributed capacitive current affects the performance of DC line pilot protection. In this paper, the fault characteristics of the ratio of differential current to distributed capacitive current are discussed and analyzed on three-terminal hybrid high-voltage DC transmission line. Since both differential current and distributed capacitive current decrease with the increase of transition resistance, the ratio of differential current to distributed capacitive current is used as the criterion to weaken the influence of transition resistance on the criterion and improve the sensitivity of protection. On this basis, a pilot protection method based on the ratio of differential current to distributed capacitive current is proposed. Simulation verification based on PSCAD/EMTDC shows that the proposed protection criterion is simple to set and naturally has the function of fault pole selection, can reliably identify the internal and external faults, has strong resistance to transition resistance, and has high sensitivity and reliability. © 2024 Automation of Electric Power Systems Press. All rights reserved.

引用

页码：162 / 170

页数：8

共 21 条

[1] SONG Guobing, GAO Shuping, CAI Xinlei, Et al., Survey of relay protection technology for HVDC transmission lines[J], Automation of Electric Power Systems, 36, 22, pp. 123-129, (2012)
[2] DAI Wenrui, LIN Sheng, Pilot protection scheme for HVDC transmission line based on fault component of aerial mode current [J], Automation of Electric Power Systems, 44, 19, pp. 142-149, (2020)
[3] FAN Yanfang, WANG Yongjin, Single-ended protection method for UHVDC transmission line based on Hilbert energy amplitude information and waveform information [J], Transactions of China Electrotechnical Society, 36, 9, pp. 1818-1830, (2021)
[4] YANG Saizhao, XIANG Wang, WEN Jinyu, Review of DC fault protection methods for the MMC based DC grid[J], Proceedings of the CSEE, 39, 22, pp. 6600-6617, (2019)
[5] ZHOU Jiapei, ZHAO Chengyong, LI Chengyu, Et al., Pilot protection method for DC lines based on included angle cosine of fault current component[J], Automation of Electric Power Systems, 42, 14, pp. 165-171, (2018)
[6] GAO Piao, ZHENG Xiaodong, CHAO Chenxu, Et al., Protection for multi-terminal flexible DC transmission lines based on response of control characteristics[J], Automation of Electric Power Systems, 46, 5, pp. 122-136, (2022)
[7] CHEN Xinquan, LI Haifeng, GU Guangkun, Et al., Transient protection scheme of HVDC transmission line based on time-domain voltage ratio[J], Automation of Electric Power Systems, 44, 22, pp. 62-69, (2020)
[8] LI Haifeng, ZHANG Kun, WANG Gang, Et al., Fault area discrimination method for parallel multi-terminal hybrid HVDC line[J], Automation of Electric Power Systems, 43, 4, pp. 119-125, (2019)
[9] SHU Hongchun, WANG Guangxue, TIAN Xincui, Et al., Non-unit pilot protection for hybrid three-terminal DC lines based on random matrix theory [J], Automation of Electric Power Systems, 46, 19, pp. 162-171, (2022)
[10] ZHANG Chenhao, SONG Guobing, DONG Xinzhou, Et al., Application research on fast line protection and adaptive restarting methods for multi-terminal hybrid LCC/MMC HVDC transmission lines[J], Proceedings of the CSEE, 41, 11, pp. 3873-3885, (2021)

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